并联光伏阵列的高增益DC-DC转换

2013 Twenty-Eighth Annual IEEE Applied Power Electronics Conference and Exposition (APEC) Pub Date : 2013-03-17 DOI:10.1109/APEC.2013.6520705

Z. Johnson, N. McFowland, L. Muller, K. Peterson, J. Jensby, J. Kimball

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引用次数: 5

摘要

提出了一种新的光伏阵列并联方案。在串联阵列中，由于遮阳或障碍物造成的不同日照会导致功率输出不成比例的减少。由于工作电压更多地受温度而不是日照的影响，因此并联阵列对遮阳效果的影响要大得多。由于传统光伏组件的电压较低，不适合直接并联。因此，在该系统中引入了高增益dc-dc变换器。讨论了三种变换器类型。两个使用变压器增加增益，一个使用抽头电感。实验结果验证了这一概念，并证明在光照差39%的情况下，跟踪精度高达99.87%，加权效率高达92.9%。

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High-gain DC-DC conversion for parallel photovoltaic arrays

A new approach to photovoltaic (PV) arrays is proposed based on a parallel connection scheme. In a series-connected array, differing insolation due to shading or obstructions causes disproportionate reduction in power output. Because operating voltage is governed more by temperature than by insolation, a parallel-connected array is much more robust to the shading effect. Direct paralleling is inappropriate due to the low voltage of a conventional PV module. Therefore, high-gain dc-dc converters are introduced in the proposed system. Three converter types are discussed. Two use transformers to increase gain and one uses a tapped inductor. Experimental results validate the concept and demonstrate tracking accuracy up to 99.87% despite a 39% difference in insolation, and weighted efficiency of up to 92.9%.

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2013 Twenty-Eighth Annual IEEE Applied Power Electronics Conference and Exposition (APEC)

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